JP2017527439A - Drug storage and dissolution equipment for ballast water sterilization treatment - Google Patents

Abstract

The present invention relates to a drug storage and dissolution apparatus in which a drug solution in which a sterilizing drug is dissolved can be formed and supplied to a ballast water pipe, and a solvent (fresh water or seawater) is introduced and stored. A cylindrical holding case is fixedly installed in the upper part of the medicine dissolution tank in a vertical direction, and a cylindrical or polygonal medicine storage basket is inserted and installed in the vertical direction inside the holding case. A space is formed in a plurality of vertical drug storage chambers by a radial partition plate, while a drug inlet corresponding to one drug storage chamber is formed on the bottom surface of the holding case, so that the drug storage basket is formed. Rotating in an upright state, each drug storage chamber corresponds to the drug inlet sequentially, and the natural drop-type fixed dose of drug through the drug dissolution tank It is of course possible to sterilize the ballast water for each drug storage room, as well as to make it safer to manage and use oxidant form drugs that are harmful to human health. Unnecessary waste of drugs and solvents by allowing all of the drug to remain in the drug dissolution tank with the correct amount of drug required for processing stored. Drug storage and dissolution for ballast water sterilization treatment, which can quickly and accurately compose the concentration of the required drug solution without applying a complicated control system for adjusting the concentration of the drug solution Providing equipment. [Selection] Figure 1

Description

  The present invention has a cylindrical holding case fixed in the vertical direction at the upper part of a drug dissolution tank into which a solvent (fresh water or seawater) flows and is stored, and stores a cylindrical or polygonal-shaped drug in the holding case. A bag is inserted and installed in the vertical direction, and the internal space of the drug storage basket is formed into a plurality of vertical drug storage chambers by a radial partition plate, while the bottom of the holding case corresponds to one drug storage chamber. The drug storage tank is formed so that the drug storage tank is rotated in an upright state so that each drug storage chamber sequentially corresponds to the drug input port. The present invention relates to a drug storage and dissolution apparatus for ballast water sterilization treatment that enables quantitative injection.

  In general, ballast water can prevent a ship from losing its balance when operating the ship with a cargo loaded from the ship or with very little cargo loaded on the ship. Thus, the buoyancy adjustment fresh water or sea water that fills the inside of the ballast tanks installed on both sides of the bottom of the ship.

  In the ballast water as described above, various microorganisms such as pathogenic bacteria and plankton contained in the fresh water and seawater filled with the ballast water are inhabited. When it is discharged, there is a high risk of causing serious marine pollution and ecosystem destruction by ballast water.

  In accordance with the above situation, in 1996 the United States enacted the National Invasion Species Law to regulate alien species as intruders and obligate management and control of ballast water. In addition to revising and specifying ballast water as an import cargo subject to quarantine, direct quarantine is being implemented.

  On the other hand, the International Maritime Organization (IMO) signed an international agreement in February 2004, and since 2009, equipment necessary for sterilization and purification of ballast water has been installed on ships. In case of violation of the law, the entry of the ship to the port is prohibited.

According to the ballast water treatment standard determined by the International Maritime Organization, the number of microorganisms (mainly zooplankton) of 50 μm or more contained in the ballast water discharged from the ship is less than 10 in 1 m ³ The number of microorganisms (mainly phytoplankton) of 10 μm or more but less than 50 μm is less than 10 in 1 mL, the number of Vibrio cholerae is less than 1 cfu in 100 mL, the number of gonococci is less than 250 cfu in 100 mL, Numbers are made in less than 100 cfu in 100 mL.

  In keeping with this trend, recently, as described in Korean Patent Registration No. 10-0963351, ballast water sterilization technology through the injection of chemical agents such as chlorinated disinfectants has appeared. doing.

  As mentioned above, most of the chemicals used to kill microorganisms in ballast water are in the form of oxidizers that are toxic, so they must be handled with care for the safety of workers. Safety should be given first priority when handling the drug under restrictive and sealed environmental conditions such as However, until now, in order to match the exact concentration of the drug solution, it is a fact that relies on human power to put the drug into a drug dissolution tank in which a solvent (fresh water or seawater) is stored.

  On the other hand, the transfer screw device is installed at the lower end inlet of the drug storage basket in which the drug is stored, and the outlet side of the transfer screw device is connected to the drug dissolution tank, thereby supplying the drug by the screw transfer method. Although most of the drug is in the form of powder or pellets (Pellet: tablets or granular particles), the correct method for transferring the drug through the transfer screw is Problems that are difficult to guarantee will occur.

  In addition, if a drug in the form of powder or pellets is supplied using a transfer screw, the drug powder or drug pellets are pushed in a solid form along the transfer screw and are placed inside the drug mass. The voids between the generated particles and the density between the drugs change from moment to moment. As a result, the concentration of the drug solution in which the drug component is dissolved often easily exceeds the standard required for the treatment of ballast water, or cannot meet the standard.

  Due to the above factors, when a drug is supplied by screw transfer method, a sensor device that senses the concentration of the drug solution is installed in the drug dissolution tank, and transferred according to the concentration standard measured from the sensor device. The operation of adjusting the concentration of the drug solution to the required standard by controlling the additional injection of the drug with the screw device (at low concentration) or the addition of the solvent through the drug dissolution tank (at high concentration) with the controller is accompanied. It must be.

  However, according to the above-described method, since there is a base where the amount of the medicine and the solvent required for the one-time sterilization treatment of the ballast water exceeds the reference value, unnecessary waste of the medicine and the solvent is induced. In addition, a control system for adjusting the concentration of the drug solution must be installed together with the drug storage tank, the transfer screw device, and the drug dissolution tank. As a result, there has been a problem that it is difficult to add a control system to a narrow space in the ship as well as an economic burden due to an increase in installation cost.

  The present invention has been devised in order to solve the above-described conventional problems, and a cylindrical holding case is vertically arranged on the upper part of a drug dissolution tank into which a solvent (fresh water or seawater) flows and is stored. A cylindrical or polygonal-shaped drug storage basket is inserted and installed in the holding case in a vertical direction, and the internal space of the drug storage basket is divided into a plurality of vertical drugs by a radial partition plate. While forming the storage chamber, a drug inlet corresponding to one drug storage chamber is formed on the bottom surface of the holding case, so that the drug storage basket is rotated in an upright state to store each drug storage chamber. The chamber is made to correspond to the drug inlet sequentially, so that the natural drop-type fixed dose of the drug through the drug dissolution tank is possible. As a result, it is possible to more safely manage and use the oxidant-form drug having toxicity harmful to the human body, as well as one drug required for the sterilization treatment of the ballast water for each drug storage room. By keeping all of the drug in the drug dissolution tank while storing it in the correct amount, the unnecessary concentration of drug and solvent is prevented, and at the same time the concentration of the drug solution The technology provides a drug storage and dissolution apparatus for ballast water sterilization treatment that can quickly and accurately compose the concentration of a required drug solution without applying a complicated control system for adjustment. As a general issue.

  According to one embodiment of the present invention, a box-shaped drug dissolution tank in which a solvent supply pipe and a drug solution discharge pipe provided with a valve device are connected and installed, respectively. A drug dispenser for storing and distributing the drug charged into the drug dissolution tank, and an agitator (stirrer) for mixing and dissolving the drug charged into the drug dissolution tank from the drug dispenser together with the solvent. In the drug storage and dissolution apparatus for ballast water sterilization treatment, the drug feeder is installed in a vertical direction from the upper side of the drug dissolution tank, and is a drug quantitative dispenser that performs a free fall quantitative dosage of the drug. Thus, the medicine fixed amount feeder has a cylindrical or polygonal-shaped medicine storage basket having an upper and lower end opened, and a cylindrical holding container in which the medicine storage basket is inserted and installed in a vertical direction. And a driving means for rotating the medicine storage basket inserted into the holding case in an upright state, and the interior space of the medicine storage basket is formed by a radial partition plate to form a minimum of three or more vertical parts. A storage basket support plate that is partitioned by a mold type drug storage chamber and is in close contact with the lower end surface of the drug storage basket is installed at the inner lower portion of the holding case, and the drug storage chamber has a single drug storage chamber. A fan-shaped or triangular-shaped drug inlet corresponding to the above is formed, the lower end of the holding case is a drug inlet tube penetrating the upper surface of the drug dissolution tank, and the upper end of the drug storage tank is detachable A drug storage and dissolution apparatus for ballast water sterilization treatment in which a cover cap is assembled and installed may be provided.

  In one embodiment, the driving means of the medicine storage basket includes a driven gear fixedly installed on an upper peripheral edge of the medicine storage basket, a stepping motor for rotating the driven gear together with the medicine storage basket, A driving gear is installed on the driving shaft to engage with the driven gear, and a medicine storage basket portion corresponding to the lower side of the driven gear is inserted and installed in the holding case. The stepping motor is placed on the upper surface of the case, and the stepping motor is installed on a motor support target formed on the outer surface of the holding case. A slot cover is installed to selectively open and close the mouth. A mounting slit is formed, and the inlet cover is in close contact with the outer side surface of the holding case, which is installed at one end of the cover plate, and the medicine inlet cover plate inserted into the holding case through the mounting slit It is made in the handle part made.

  In addition, the lower end side of the holding case is formed by a funnel portion, the drug injection tube is formed to extend vertically downward by a predetermined length from the lower end side of the funnel portion, and the storage basket support plate is directly connected to the funnel portion. A mounting flange for assembling a holding case on the drug dissolution tank is installed on the outer peripheral edge of the drug injection pipe, and a valve device and a flow meter are installed in the drug dissolution tank. And a neutralizer charging pipe having a top surface of the chemical dissolution tank, an overpressure discharge device is installed on the top surface of the chemical dissolution tank, and a bottom surface of the chemical dissolution tank is formed in a funnel shape. Is connected to the bottom apex portion of the bottom of the funnel type, and the chemical dissolution tank is additionally provided with a circulation pipe having a valve device and a circulation pump, and the circulation pipe is a chemical Become pipe line connecting the lower end and the upper surface of the solution tank, the neutralizing agent feeding pipe may be installed connected with the circulation pipe.

  According to the present invention as described above, the drug storage basket is rotated in an upright state, and each drug storage chamber is sequentially associated with the drug inlet, so that the natural drop-type determination of the drug through the drug dissolution tank is performed. It has the effect of making it possible to make the injection possible, and this makes it possible to more safely manage and use drugs in the form of oxidants that are harmful to the human body. By making it possible for all of the drug to remain in the drug dissolution tank while storing the correct amount of drug required for sterilization of the drug, it is unnecessary for the drug and solvent. In addition to preventing wasteful use, it is possible to quickly and accurately compose the required concentration of the drug solution without applying a complicated control system for adjusting the concentration of the drug solution.

  In addition, by making it possible to selectively open and close the medicine inlet formed in the storage basket support plate of the holding case by the inlet cover, it is possible to access all the medicine storage chambers defined inside the medicine storage bowl. An additional circulation pipe equipped with a circulation pump is added to the drug dissolution tank. In the state where the drug solution itself can be circulated, a neutralizer injection pipe is connected to the circulation pipe to neutralize the toxic drug solution with the neutralizer and The work to be discharged to the outside also has a very useful effect such that it can be performed more quickly and easily through the combined use of a stirrer and a circulation pipe.

1 is an external perspective view of a drug storage and dissolution apparatus for ballast water sterilization treatment according to an embodiment of the present invention. FIG. 2 is a front sectional view of FIG. 1. It is a disassembled perspective view of the chemical | medical agent fixed dose feeder which makes the waist | lumbar part of this invention. FIG. 4 is a front sectional view of the combined state of FIG. 3. It is a top view of a holding case. It is a top view which shows the other Example of the chemical | medical agent storage container.

  Hereinafter, embodiments of the present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

  As shown in FIGS. 1 and 2, the drug storage and dissolution apparatus for ballast water sterilization treatment according to the present invention includes a solvent supply pipe 4 and a drug solution discharge pipe 3 each having a valve mechanism V. A box-shaped drug dissolution tank 2 connected to each other, a chemical fixed amount input device 10 for storing and distributing a chemical agent, for example, a chlorine-based disinfectant, etc. A stirrer 8 is provided for mixing and dissolving the drug charged into the drug dissolution tank 2 from the drug fixed amount input device 10 together with the solvent, and the drug fixed amount input device 10 and the agitator 8 are arranged above the drug dissolution tank 2. Installed perpendicular to the surface.

  On the outer surface of the drug dissolution tank 2, a grid-type reinforcing meat 2b for reinforcing the structural strength is installed, while an operator is installed for the maintenance and repair of the drug metering doser 10 and the agitator 8. A ladder-shaped handle 2c is installed so that the upper part of the drug dissolution tank 2 is raised, and an overpressure discharger 2a and a carrying ring 2d for carrying are additionally installed on the upper surface of the drug dissolution tank 2, On the lower side of the medicine dissolution tank 2, an apparatus base 1a including a support plate and a frame is installed.

  As shown in FIG. 2, the stirrer 8 is fixed to the upper surface of the drug dissolution tank 2 in a vertical direction, and is connected to the drive shaft of the stirring motor 8a. The impeller shaft 8b extends through the upper surface into the drug dissolution tank 2, and the impeller 9 is connected to the lower end of the impeller shaft 8b. The impeller 9 includes a plurality of impellers 9 on the periphery of the impeller hub 9a. A plurality of stirring blades 9b are connected in a radial manner, the bottom surface of the drug dissolution tank 2 is formed in a funnel shape, and the drug solution discharge pipe 3 is connected and installed in a lower end apex portion of a funnel type bottom surface. .

  The drug metering doser 10 corresponding to the first waist of the present invention is connected to the upper surface of the drug dissolution tank 2 in the vertical direction so as to perform a free-falling metered dose of the drug. As shown in FIG. 5, a cylindrical medicine storage basket 14 having upper and lower ends opened, a cylindrical holding case 11 into which the medicine storage basket 14 is inserted and installed in a vertical direction, and the holding case 11 It includes a driving means for rotating the medicine storage basket 14 inserted in the upright position.

  The lower end portion of the holding case 11 is a drug input tube 12 that penetrates the upper surface of the drug dissolution tank 2, and a detachable cover cap 16 is assembled and installed on the upper end side of the drug storage basket 14. The inner space of the medicine storage basket 14 is partitioned and formed by a plurality of vertical medicine storage chambers 15 by a radial partition plate 15a, and the lower inner side of the holding case 11 is in close contact with the lower end surface of the medicine storage basket 14 The storage basket support plate 18 is installed, and the storage basket support plate 18 is formed with a fan-shaped medicine inlet 18 a corresponding to one medicine storage chamber 15.

  More preferably, the lower portion of the holding case 11 is formed by a funnel portion 11a, and the medicine input tube 12 is extended vertically downward by a predetermined length from the lower end side of the funnel portion 11a. A mounting flange 13 for assembling the holding case 11 on the drug dissolution tank 2 is installed at the outer peripheral edge of the center side of the drug charging pipe 12 to be operated, and the storage basket support plate 18 is directly above the funnel part 11a. The mounting flange 13 is formed with a fastening hole 13a for fastening an assembly bolt.

  If the holding case 11 having the structure as described above is applied, it is possible to achieve the convenience of the operation of mounting the medicine fixed amount feeder 10 on the medicine dissolution tank 2 and a firm mounting state, and the funnel portion 11a is formed. Of course, it is possible to make the mounting case 13 at the lower end of the holding case 11 after manufacturing the holding case 11 including the medicine injection tube 12 in a single-cylindrical cylindrical shape.

  The mounting flange 13, the storage basket support plate 18 and the respective partition plates 15a are preferably made of the same material as the holding case 11 and the medicine storage basket 14 and are integrally formed. When necessary, the mounting flange 13 and the storage basket support are supported. It will be made clear that it is possible to manufacture the plate 18 and the respective partition plates 15a as separate parts, and to bond (weld) or assemble them to the holding case 11 and the drug storage basket 14.

  In the drawing, a total of eight drug storage chambers 15 are shown in the drug storage basket 14 within an angle range of 45 degrees, but a minimum of three or more drug storage chambers 15 are equal in size and angle. The number and volume of the medicine storage chamber 15 can be arbitrarily adjusted in accordance with the amount and the number of times of the medicine required for the treatment of the ballast water under the conditions of forming the range, and the cover cap 16 can be quickly adjusted. It is desirable to assemble the medicine storage basket 14 with a screw fastening system capable of maintaining hermeticity in order to prevent the medicine from being charged and the exposed medicine from being exposed.

  As a component corresponding to the second waist of the present invention, the driving means of the medicine storage basket 14 includes a driven gear 14a fixedly installed on the upper peripheral edge of the medicine storage basket 14, and the driven gear 14a together with the medicine storage basket 14. A stepping motor 20 for rotating and a drive gear 22 installed on a drive shaft 21 of the stepping motor 20 and meshing with the driven gear 14a are included. The driven gear 14a is also integrated with the medicine storage rod 14. It is desirable to form.

  Accordingly, the medicine storage rod 14 corresponding to the lower side of the driven gear 14a is inserted and installed in the holding case 11, and the driven gear 14a is placed on the upper end surface of the holding case 11, and the stepping motor 20 can be installed on the upper surface of the drug dissolution tank 2, but the motor support 23 is integrated with the outer surface of the holding case 11 in order to modularize the drug dispensing device 10 and reduce the volume. It is most desirable to install the stepping motor 20 on the corresponding motor support base 23 after the protrusion is formed by the above step.

  As described above, it is possible to install the driven gear 14a on the outer peripheral surface of the medicine storage basket 14, and to directly connect the driven gear 14a to the drive gear 22 of the stepping motor 20, so that the drive means can be easily installed and easily maintained and repaired. In addition to the gear-type electric means in which the drive gear 22 and the driven gear 14a mesh with each other, other electric means such as a belt and a pulley or a chain and a supra bracket can be applied. A system in which the driven gear 14a is connected by a belt gear (timing belt) is also possible.

  However, any form of driving means may be applied as long as the medicine storage basket 14 inserted into the holding case 11 can be rotated in an upright state. As a typical example, a rotation shaft is integrally connected and installed at the center of the lower surface of the medicine storage basket 14, that is, a portion where each partition plate 15a intersects. The drive shaft 21 of the stepping motor 20 is placed in a state in which the stepping motor 20 is disposed by a radial support rib on the inner center side of the drug injection tube 12 so as to extend through the inside of the drug injection tube 12. This is connected to the rotating shaft of the medicine storage basket 14.

  As a component corresponding to the third waist portion of the present invention, a charging port cover 17 for selectively opening and closing the drug charging port 18a is installed below the storage basket support plate 18, and the funnel portion of the holding case 11 is provided. A mounting slit 17c in the form of a long hole for inserting the insertion port cover 17 is formed on the upper end side of 11a. The insertion port cover 17 is inserted into the holding case 11 through the mounting slit 17c. The cover plate 17b for 18a and the handle portion 17a installed at one end of the cover plate 17b and in close contact with the outer surface of the holding case 11 are most desirable.

  FIG. 6 shows another embodiment of the drug storage basket 14 used in the present invention. In place of the cylindrical drug storage basket 14 shown in FIGS. The polygonal-shaped drug storage basket 14 has a disadvantage that the volume of the drug storage chamber 15 is slightly reduced, but the contact area with the holding case 11 is used. This is advantageous in that the upright rotation operation of the medicine storage basket 14 using the driving means can be performed more smoothly and more smoothly.

  In the case of using the polygonal basket-shaped drug storage basket 14 as described above, the drug inlet 18a of the storage basket support plate 18 can be formed in a fan shape as shown in FIG. 5, and the drug storage chamber 15 of FIG. The cover plate 17b of the inlet cover 17 is sufficient if it can temporarily close the medicine inlet 18a below the medicine inlet 18a. The handle portion 17a of the mouth cover 17 is preferably formed in an arc shape so as to be completely in close contact with the outer surface of the holding case 11 so that the drug component is not exposed to the outside.

  Finally, as shown in FIGS. 1 and 2, a neutralizer charging pipe 5 having a valve mechanism V and a flow meter 5a is additionally connected to the drug dissolution tank 2 so that the drug is sterilized after the ballast water sterilization process. The chemical liquid remaining in the dissolution tank 2 can be neutralized with a neutralizing agent and discharged to the outside of the ship. In the drawing, two neutralizing agent input pipes 5 are connected and illustrated. However, it is sufficient to connect at least one neutralizing agent charging pipe 5 to the drug dissolution tank 2.

  In accordance with the application of the neutralizer charging pipe 5 as described above, a circulation pipe 6 including a valve mechanism V and a circulation pump 7 is additionally installed on the front side of the drug dissolution tank 2. Is a pipe line that connects the lower end side and the upper surface of the drug dissolution tank 2, and the neutralizer charging pipe 5 is connected to the circulation pipe 6, so that the drug solution stored in the drug dissolution tank 2 itself In this process, a neutralizing agent can be introduced through the drug solution.

  In the drawing, the free mixer 6a installed on the upper end side of the circulation pipe 6 is necessary for the neutralization reaction by first mixing the neutralizing agent with the chemical solution before introducing the neutralizing agent into the chemical dissolution tank 2. In order to further reduce the time required, a filter device for foreign matter is installed in the circulation pipe 6 corresponding to the inlet side of the circulation pump 7 so as to ensure the safe operation of the circulation pump 7. Although the Y filter 6b is installed in the drawing as an instrument, it is needless to say that various filter instruments can be applied besides this.

  According to the present invention as described above, the medicine storage basket 14 is placed in the holding case 11 so that the medicine inlet 18a of the storage basket support plate 18 corresponds to one medicine storage chamber 15 formed in the medicine storage basket 14. After the insertion, the driven gear 14a and the driving gear 22 mesh with each other at the corresponding position, and then the required amount of medicine is put into each medicine storage chamber 15, and the cover cap 16 is placed on the upper end of the medicine storage basket 14. In the state in which the medicine fixed amount feeder 10 is set in the order of mounting, the medicine storage basket 14 inserted in the holding case 11 is rotated upright using the stepping motor 20, the drive gear 22 and the driven gear 14a. Each time the ballast water is sterilized once, each medicine storage chamber 15 is sequentially associated with the medicine inlet 18a of the storage basket support plate 18. If the cormorants, drugs stored in the appropriate drug storage chamber 15 is dropped later the drug inlet 18a inside the drug dissolution tank 2.

  By allowing the medicine stored in each medicine storage chamber 15 to be put into the medicine dissolution tank 2 by a natural dropping method at each time point when sterilization treatment of ballast water is required as described above, Of course, it is possible to safely manage and use an oxidant-form drug having toxicity harmful to the human body in a state where the drug is stored in the drug reservoir 14, and sterilizing the ballast water for each drug storage room 15. In a state where the medicine for one time required for the above is stored in an accurate amount, all the medicines corresponding to the time point at which the sterilization treatment of the ballast water is required can be put into the medicine dissolution tank 2, It is possible to quickly and accurately make the composition according to the standard that requires the concentration of the drug solution.

  Therefore, unnecessary waste of medicine and solvent can be prevented as compared with the normal transfer screw device described in the conventional technical contents, and instead of applying a complicated control system for adjusting the concentration of the medicine liquid. In addition, it is possible to accurately adjust the concentration of the drug solution at a required concentration by a simple method in which only the rotation speed of the stepping motor 20 is controlled. For this reason, not only can the installation cost of the drug storage and dissolution apparatus 1 be reduced, but the drug metering doser 10 can be arranged directly above the drug dissolution tank 2 to improve the space utilization in a narrow ship. .

  In particular, by allowing the medicine inlet 18 a formed in the storage basket support plate 18 to be selectively opened and closed by the inlet cover 17, it is possible to access all the medicine storage chambers 15 defined inside the medicine storage bowl 14. The medicine can be charged, and the number of times of the chemical liquid composition work using the medicine fixed amount feeder 10, that is, the number of times of sterilization treatment of the ballast water is further sufficiently secured. By connecting the neutralizer feed pipe 5, the work of neutralizing the toxic chemical solution with the neutralizer and discharging it to the outside of the ship can be made quicker and easier through the combined use of the stirrer 8 and the circulation pipe 6. It can be accomplished.

  As an additional matter, the chemical dissolution tank 2 and the piping line installed with the chemical dissolution tank 2 are made of a metal material having excellent corrosion resistance, such as a stainless steel material, as in the existing method, or a corrosion resistant coating. It is desirable to use a metal product that has performed the above, and each part of the medicine metering doser 10 excluding the stepping motor 20 uses a plastic material in consideration of advantages such as cheap manufacturing cost and weight reduction of the apparatus. Desirably, each valve mechanism V most preferably uses a ball valve.

  As described above, according to various embodiments of the present invention, unnecessary waste of medicine and solvent can be prevented and a complicated control system for adjusting the concentration of the medicine liquid can be applied. It is possible to provide a drug storage and dissolution apparatus for ballast water sterilization treatment that can quickly and accurately make the required concentration of the drug solution.

DESCRIPTION OF SYMBOLS 1 Drug storage and dissolution apparatus 1a Apparatus base 2 Drug dissolution tank 2a Overpressure discharge device 2b Reinforcement meat 2c Handle 2d Hanging ring 3 Drug solution discharge pipe 4 Solvent supply pipe 5 Neutralizing agent input pipe 5a Flow meter 6 Circulation pipe 6a Free mixer 6b Y filter 7 Circulating pump 8 Stirrer 8a Stirrer motor 8b Impeller shaft 9 Impeller 9a Impeller hub 9b Stirring blade 10 Drug metering feeder 11 Holding case 11a Funnel part 12 Drug inlet tube 13 Mounting flange 13a Fastening hole 13b Mounting bolt 14 Drug storage rod 14a Follower gear 15 Drug storage chamber 15a Partition plate 16 Cover cap 16a Fastening portion 17 Input port cover 17a Handle portion 17b Cover plate 17c Mounting slit 18 Storage rod support plate 18a Drug input port 20 Stepping motor 21 Drive shaft 22 Drive gear 23 Motor support Stand V valve machine

The present invention has a cylindrical holding case fixed in the vertical direction at the upper part of a drug dissolution tank into which a solvent (fresh water or seawater) flows and is stored, and stores a cylindrical or polygonal-shaped drug in the holding case. A bag is inserted and installed in the vertical direction, and the internal space of the drug storage basket is formed into a plurality of vertical drug storage chambers by a radial partition plate, while the bottom of the holding case corresponds to one drug storage chamber. by forming the drug inlet it, natural-fall of agents each agent storage chamber is rotated in a state of upright the drug storage tank through the drug dissolution tank in a manner to sequentially correspond with the drug inlet The present invention relates to a drug storage and dissolution apparatus for ballast water sterilization treatment that enables quantitative injection.

In the ballast water as described above, various microorganisms such as pathogenic bacteria and plankton contained in the fresh water and seawater filled with the ballast water are inhabited. If you are discharged, the fear of inducing serious marine pollution and destruction of ecosystems Ru good to ballast water is high.

In accordance with the above situation, in 1996 the United States enacted the National Invasive Species Law to define alien species as invasive species and obligate management and control over ballast water. In addition to revising and specifying ballast water as an import cargo subject to quarantine, direct quarantine is being implemented.

On the other hand, the International Maritime Organization: was to be equipped with the equipment necessary for the ship to sterilization and purification process of sequentially ballast water from (IMO International Maritime Organization) in signed an international agreement in February 2004, 2009.

According to the ballast water treatment standard determined by the International Maritime Organization, the number of microorganisms (mainly zooplankton) of 50 μm or more contained in the ballast water discharged from the ship is less than 10 in 1 m ³ above 50μm less microorganisms (primarily phytoplankton) 10 [mu] m number of less than 10 in 1mL of the number of V. cholerae under 1cfu in 100 mL, the number of E. coli strain is less than 250cfu in 100 mL, intestinal sphere bacteria Is made in less than 100 cfu in 100 mL.

Since most of the drugs used to kill microorganisms in ballast water are in the form of toxic oxidizers, they must be handled with care for the safety of workers, especially on board. Safety must be given first priority when handling the drug under restricted and sealed environmental conditions. However, it is fact is until now relies the task of solvent (fresh water or sea water) is to put a drug in a drug dissolution tank stored to match the exact concentration of the drug solution to manpower.

On the other hand, by installing a transfer screw device at the lower end inlet of the drug storage basket in which the drug is stored, and connecting the outlet side of the transfer screw device with the drug dissolution tank, the drug supply is performed by the screw transfer method. However, since most of the drug is in the form of powder or pellets (Pellet: tablets and particles ), it is difficult to ensure the correct amount of drug input as the drug transfer system through the transfer screw. Problems will occur.

Further, by using a feed screw if so to supply the drug in the form of powder or pellets, the drug powder, the drug pellets solidified along the feed screw, voids and drugs among particles generated in the interior of the drug The congestion level of this will change from moment to moment. As a result, the concentration of the drug solution in which the drug component is dissolved often exceeds the standard required for the treatment of ballast water, or a situation in which the standard cannot be met.

Due to the above factors, when a drug is supplied by screw transfer method, a sensor device that senses the concentration of the drug solution is installed in the drug dissolution tank, and transferred according to the concentration standard measured from the sensor device. It is accompanied by work to adjust the concentration of the drug solution to the required standard by controlling the additional injection of the drug by the screw device (at low concentration) or the addition of the solvent through the drug dissolution tank (at high concentration) by the controller. There must be.

Furthermore , according to the above-described method, since there is a base where the input amount of the medicine and the solvent necessary for the one-time sterilization treatment of the ballast water exceeds the reference value, unnecessary use of the medicine and the solvent is induced. In addition, a control system for adjusting the concentration of the drug solution must be installed together with the drug storage tank, the transfer screw device, and the drug dissolution tank. In this, although the economic burden due to an increase in the installation cost of course, there is a problem that the work of arranging the control system in addition to the small space is also difficult in the ship.

The present invention has been devised in order to solve the above-described conventional problems, and a cylindrical holding case is vertically arranged on the upper part of a drug dissolution tank into which a solvent (fresh water or seawater) flows and is stored. A cylindrical or polygonal-shaped drug storage basket is inserted and installed in the holding case in a vertical direction, and the internal space of the drug storage basket is divided into a plurality of vertical drugs by a radial partition plate. While forming the storage chamber, a drug inlet corresponding to one drug storage chamber is formed on the bottom surface of the holding case, so that the drug storage basket is rotated in an upright state to store each drug storage chamber. The chamber is made to correspond to the drug inlet sequentially, so that the natural drop-type fixed dose of the drug through the drug dissolution tank is possible. As a result, it is possible to more safely manage and use the oxidant-form drug having toxicity harmful to the human body, as well as one drug required for the sterilization treatment of the ballast water for each drug storage room. By allowing the relevant drug to be put into the drug dissolution tank while storing it in the correct amount, it is possible to prevent unnecessary waste of the drug and solvent and to adjust the concentration of the drug solution. It is a technical object of the present invention to provide a drug storage and dissolution apparatus for ballast water sterilization treatment that can quickly and accurately compose the concentration of a required drug solution without applying a complicated control system for the purpose. Let it be an issue.

According to one embodiment of the present invention, a box-shaped drug dissolution tank in which a solvent supply pipe and a drug solution discharge pipe provided with a valve device are connected and installed, respectively. A drug dispenser for storing and distributing the drug charged into the drug dissolution tank, and an agitator (stirrer) for mixing and dissolving the drug charged into the drug dissolution tank from the drug dispenser together with the solvent. In the drug storage and dissolution apparatus for ballast water sterilization treatment, the drug feeder is installed in the vertical direction from the upper side of the drug dissolution tank to allow free-falling quantitative injection of the drug, and the upper and lower ends are opened. A cylindrical or polygonal drug storage basket, a cylindrical holding case in which the drug storage basket is vertically installed, and a drug storage inserted in the holding case The is configured to include a drive means for rotating in an upright state, the interior space of the drug storage tank is partitioned formed with a minimum of three or more vertical drug storage chamber by radial partition plates, said holding case A storage basket support plate that is in close contact with the lower end surface of the drug storage basket is installed at the inner lower part of the container, while the storage basket support plate has a fan-shaped or triangular drug inlet corresponding to one drug storage chamber. is formed, the lower end of the holding case is made of drug injection tube passing through the upper surface of the drug dissolution tank, the drug to the upper end of the storage tank has a removable covering cap assembly installed as ballast water disinfection treatment drug reservoir And a dissolution apparatus is provided .

In one embodiment, the driving means of the medicine storage basket includes a driven gear fixedly installed on an upper peripheral edge of the medicine storage basket, a stepping motor for rotating the driven gear together with the medicine storage basket, is installed in the drive shaft is configured to include a drive gear that will engage with the driven gear, wherein the agent storage tank portion corresponding to the lower side of the driven gear is inserted installed inside the holding case, the driven gear holding case and characterized in that it is placed on the upper end surface of said stepping motor as a feature for installation in motor support object which is protruded on the outer surface of the holding case, the agent inlet on the lower side of the storage tank support plate inlet cover for selectively opening and closing is placed, mounted for insertion of inlet cover to said holding case A lid is formed, and the inlet cover is in close contact with an outer side surface of the holding case and a medicine inlet cover plate inserted into the holding case through a mounting slit and one side end of the cover plate. It is made by the handle part.

Further, the lower end of the holding case is formed by the funnel unit, wherein the medicine input tube is extended from the lower end of the funnel portion to a predetermined length around the vertical downward, the storage tank support plate directly above the funnel And a mounting flange for assembling a holding case on the drug dissolution tank is installed at an outer peripheral edge of the drug injection tube. The drug dissolution tank includes a valve device and a flow meter. A neutralizer charging pipe is connected and installed, an overpressure discharger is installed on an upper surface of the drug dissolution tank, a bottom surface of the drug dissolution tank is formed in a funnel shape, and the drug solution discharge pipe is a funnel type The drug dissolution tank is additionally provided with a circulation pipe having a valve device and a circulation pump, and the circulation pipe is connected to the bottom vertex of the bottom. Is a pipe line connecting the lower end and the upper surface of the click, the neutralizing agent feeding pipe may be installed connected with the circulation pipe.

1 is an external perspective view of a drug storage and dissolution apparatus for ballast water sterilization treatment according to an embodiment of the present invention. FIG. 2 is a front sectional view of FIG. 1. It is a disassembled perspective view of the medicine fixed amount feeder which makes the main point of this invention. FIG. 4 is a front sectional view of the combined state of FIG. 3. It is a top view of a holding case. It is a top view which shows the other Example of the chemical | medical agent storage container.

A grid-type reinforcing support 2b for reinforcing structural strength is installed on the outer surface of the drug dissolution tank 2, while an operator is installed for the maintenance and repair of the drug metering doser 10 and the agitator 8. A ladder-shaped handle 2c is installed so that the upper part of the drug dissolution tank 2 is raised, and an overpressure discharger 2a and a carrying ring 2d for carrying are additionally installed on the upper surface of the drug dissolution tank 2, On the lower side of the medicine dissolution tank 2, an apparatus base 1a including a support plate and a frame is installed.

The drug metering doser 10 corresponding to the first main point of the present invention is connected to the upper surface of the drug dissolution tank 2 in the vertical direction so as to perform the free-falling type metering of the drug. To FIG. 5, a cylindrical drug storage basket 14 having upper and lower ends opened, a cylindrical holding case 11 in which the drug storage basket 14 is vertically installed, and the holding case It is configured to include a drive means for rotating in an upright state drug storage tank 14 which is inserted into 11.

As a component corresponding to the second main point of the present invention, the driving means of the medicine storage basket 14 includes a driven gear 14a fixedly installed on the upper peripheral edge of the medicine storage basket 14, and the driven gear 14a connected to the medicine storage basket 14. integrated with the stepping motor 20 for rotating the which is configured to include a driving gear 22 which will engage with the driven gear 14a installed on the drive shaft 21 of the stepping motor 20, and the driven gear 14a also drug storage tank 14 with It is desirable to form with.

As described above, it is possible to install the driven gear 14a on the outer peripheral surface of the medicine storage basket 14, and to directly connect the driven gear 14a to the drive gear 22 of the stepping motor 20, so that the drive means can be easily installed and easily maintained and repaired. best not desirable on both sides of the. Other electric means such as a belt and a pulley or a chain and a suspension racket may be applied in addition to the gear type electric means in which the driving gear 22 and the driven gear 14a mesh with each other. The driving gear 22 and the driven gear 14a are connected to a belt gear (timing belt). ) Is also possible.

However, any form of driving means may be applied as long as the medicine storage basket 14 inserted into the holding case 11 can be rotated in an upright state. As a typical example, a rotation shaft is integrally connected and installed at the center of the lower surface of the medicine storage basket 14, that is, a portion where each partition plate 15a intersects. The drive shaft 21 of the stepping motor 20 is placed in a state in which the stepping motor 20 is disposed on the inner center side of the drug injection tube 12 by a radial support base so as to extend to the inside of the drug injection tube 12. This is connected to the rotating shaft of the medicine storage basket 14.

As a component corresponding to the third principal point of the present invention, a charging port cover 17 for selectively opening and closing the drug charging port 18a is installed below the storage basket support plate 18, and the funnel of the holding case 11 is provided. A slot-shaped mounting slit 17c for inserting the inlet cover 17 is formed at the upper end of the portion 11a. The inlet cover 17 is inserted into the holding case 11 through the mounting slit 17c. The cover plate 17b for the opening 18a and the handle portion 17a that is installed at one end of the cover plate 17b and is in close contact with the outer surface of the holding case 11 are most desirable.

DESCRIPTION OF SYMBOLS 1 Drug storage and dissolution apparatus 1a Apparatus base 2 Drug dissolution tank 2a Overpressure discharge device 2b Reinforcement support 2c Handle 2d Hanging ring 3 Chemical solution discharge pipe 4 Solvent supply pipe 5 Neutralizing agent supply pipe 5a Flow meter 6 Circulation pipe 6a Free mixer 6b Y filter 7 Circulating pump 8 Stirrer 8a Stirrer motor 8b Impeller shaft 9 Impeller 9a Impeller hub 9b Stirring blade 10 Drug metering feeder 11 Holding case 11a Funnel part 12 Drug inlet tube 13 Mounting flange 13a Fastening hole 13b Mounting bolt 14 Drug storage rod 14a Follower gear 15 Drug storage chamber 15a Partition plate 16 Cover cap 16a Fastening portion 17 Input port cover 17a Handle portion 17b Cover plate 17c Mounting slit 18 Storage rod support plate 18a Drug input port 20 Stepping motor 21 Drive shaft 22 Drive gear 23 Motor support Stand V Breakfast mechanism

Claims (7)

A box-shaped drug dissolution tank in which a solvent supply pipe and a drug solution discharge pipe each having a valve mechanism are connected and installed; a drug input device for storing and distributing the drug to be injected into the drug dissolution tank; In the drug storage and dissolution apparatus for ballast water sterilization treatment comprising a stirrer for mixing and dissolving the drug charged into the drug dissolution tank from the drug charging device with the solvent,
The drug dispenser is installed in a vertical direction from the upper side of the drug dissolution tank, and is a drug quantitative dispenser that performs a free fall quantitative dosage of the drug,
The medicine fixed amount feeder includes a cylindrical or polygonal-shaped medicine storage bowl whose upper and lower ends are opened, a cylindrical holding case in which the medicine storage basket is inserted and installed in a vertical direction, and an insertion into the holding case Including drive means for rotating the stored drug reservoir in an upright state,
The inner space of the drug storage basket is partitioned by a radial partition plate into a minimum number of vertical drug storage chambers, and the storage basket support plate that is in close contact with the lower end surface of the drug storage basket at the inner lower portion of the holding case On the other hand, a fan-shaped or triangular drug inlet corresponding to one drug storage chamber is formed on the storage basket support plate,
The ballast water sterilization treatment is characterized in that a lower end portion of the holding case is a drug input pipe penetrating the upper surface of the drug dissolution tank, and a removable cover cap is assembled and installed on the upper end of the drug storage tank. Drug storage and dissolution equipment. The driving means includes a driven gear fixedly installed on the upper peripheral edge of the medicine storage basket, a stepping motor for rotating the driven gear together with the medicine storage basket, and a driven gear installed on a driving shaft of the stepping motor. Including the drive gear that comes into meshing,
The ballast water sterilization treatment according to claim 1, wherein a medicine storage basket portion corresponding to a lower side of the driven gear is inserted and installed in a holding case, and the driven gear is placed on an upper end surface of the holding case. Drug storage and dissolution equipment.   The apparatus for storing and dissolving a ballast water sterilizing agent according to claim 1, wherein the stepping motor is installed on a motor support that protrudes from the outer surface of the holding case. A loading port cover for selectively opening and closing the drug loading port is installed under the storage basket support plate, and a mounting slit for insertion of the loading port cover is formed in the holding case,
The inlet cover includes a cover plate for a drug inlet inserted into the holding case through a mounting slit, and a handle portion that is installed at one end of the cover plate and is in close contact with the outer surface of the holding case. The drug storage and dissolution apparatus for ballast water sterilization treatment according to claim 1. The lower end side of the holding case is formed in a funnel part, and the medicine injection tube is formed to extend vertically downward by a predetermined length from the lower end side of the funnel part,
The storage basket support plate is disposed immediately above the funnel portion, and a mounting flange for assembling a holding case on the drug dissolution tank is installed at an outer peripheral edge of the drug input tube. The drug storage and dissolution apparatus for ballast water sterilization treatment according to any one of Items 1 to 3. A neutralization agent charging pipe having a valve mechanism and a flow meter is connected to the drug dissolution tank,
An overpressure discharge device is installed on the upper surface of the drug dissolution tank,
The bottom of the drug dissolution tank is formed in a funnel shape,
The drug storage and dissolution apparatus for ballast water sterilization treatment according to any one of claims 1 to 6, wherein the drug solution discharge pipe is connected to and installed at a lower end apex portion of a funnel-shaped bottom surface. The drug dissolution tank is additionally provided with a circulation pipe having a valve mechanism and a circulation pump, and the circulation pipe is a pipe line connecting the lower end side and the upper surface of the drug dissolution tank,
The apparatus for storing and dissolving a ballast water sterilizing agent according to claim 2, wherein the neutralizer charging pipe is connected to a circulation pipe.